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In many programs a #define serves the same purpose as a constant. For example.

#define FIELD_WIDTH 10
const int fieldWidth = 10;

I commonly see the first form preferred over the other, relying on the pre-processor to handle what is basically an application decision. Is there a reason for this tradition?

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Note that for integer constants, you can also use an enum like in ``enum {FIELD_WIDTH = 10};´´which can be useful if you need a compile-time constant in a function scope. –  Jochen Walter Oct 26 '10 at 14:16
You can #define at function scope too although you have to remember to #undef it at the end of the function –  CashCow Oct 26 '10 at 14:58
@CashCow: That´s right, but then you´re undefining a possible #define at file scope (which may have been defined in an include file you have not written yourself). –  Jochen Walter Oct 26 '10 at 15:18
@Jochen: When there is a collision with another macro definition, then your #define has already overwritten the previous definition and you've ignored a compiler warning, so you can as well #undef it and produce a compiler error when the macro is used further down in your code, to remind you that you should change the macro name for your function scope macro. –  Secure Oct 26 '10 at 15:49
@Secure: Sure, but then you have to handle the name clash. The advantage of local scopes is that they avoid it. Of course, using a local enum is not bullet-proof either: If a global #define rewrites FIELD_WIDTH to something else, say 20, the enum would be rewritten to `enum {20 = 10};` If the global and the local definition of FIELD_WIDTH are enums, though, both definitions do coexist (the local definition shadows the global one). (See eetimes.com/discussion/programming-pointers/4023879/… for further information on this topic. –  Jochen Walter Oct 26 '10 at 19:59

8 Answers 8

up vote 121 down vote accepted

There is a very solid reason for this: const in C does not mean something is constant. It just means a variable is read-only.

In places where the compiler requires a true constant (such as for array sizes for non-VLA arrays), using a const variable, such as fieldWidth is just not possible.

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+1 for correct answer among a sea of wrong ones from C++ coders who don't know C. –  R.. Oct 26 '10 at 13:59
@C. Ross: Consistency. All manifest constants are usually defined with #defines. const is only used to indicate a read-only (access path to a) variable. I know, const in C is just plain broken :-) –  Bart van Ingen Schenau Oct 26 '10 at 14:16
@fahad: Not in C89. In C99 you can do so for a variable of automatic storage duration, but it is technically a VLA. –  caf Oct 27 '10 at 12:01
@fahad: A VLA is a 'Variable Length Array'. It is an array whose size is not known until runtime and can only be used for automatic variables (i.e. can only be allocated on the stack). –  Bart van Ingen Schenau Oct 27 '10 at 12:44
@Exception: C and C++ are very different languages in their treatment of const. In C++, const can be used for proper constants, in C it can not. –  Bart van Ingen Schenau Oct 28 '10 at 9:54

No, they're different.

const is just a qualifier, that says to variable(!) that it cannot be changed in runtime. But all other attributes of variable persist: it has allocated storage, and this storage may be addressed. So any code do not just use it as literal, but refers to it by accessing to specified memory location (only in case of statc it can be simply optimized), and converting it to suitable data type in runtime. And as it have allocated storage, if you add it to header and include in several c sources, you'll get linkage error of multiple symbol definition until you mark them as extern. And in this case compiler shoudn't optimize code against it's actual value (until global optimisation is on).

#define simply substitutes a name with its value. Futhermore, #define'd constant may be used in preprocessor: #ifdef to have conditional compilation upon its value, stringize # to have string with its value. And as compiler may analyse its value it may optimize code which depends on it and make required conversions in compile time.

For this example code:

#define SCALE 1


scaled_x = x * SCALE;

While it have SCALE defined to 1 compiler simply removes multiplications as it knows that x * 1 == x, but if it have (extern) const, it will heed to compile const fetch and actual multiplication because it cannot realize what will be constant as it will be known only on linking stage. (Extern is needed to use constant from several source files).

More closer equivalent of defining is using enumerations:

enum dummy_enum{
   constant_value = 10010

But it restricted to integer values and have'nt advantages of define, so it is not widely used.

const is useful when need to import constant value from some library where it compiled in. Or if it used with pointers. Or it is array of constant values accessed through variable index value. Until one need this const have no advantages over define.

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+1 for mentioning enum as an alternative - that should be used a lot more often. One major advantage is that the symbol is available to the debugger. –  Jonathan Leffler Oct 26 '10 at 17:02
I'd rather think that it is debugger disadvantage to be not able of using defines, rather than advandage of enum to be usable in debugger. –  Vovanium Oct 26 '10 at 18:56
And the advantage of #define over enum is that you can #ifdef to test its presence or use its value in #if, which makes it a lot more useful for controlling build-time choices or offering features which might be present on some platforms but not others. –  R.. Oct 26 '10 at 19:27
Newer versions of gdb / gcc do support the use of #define constants in the debugger (I think the -gdb3 flag must be passed to gcc at compilation time to enable this). –  psmears Dec 3 '10 at 14:21
The part about optimization is not true for any compiler doing link-time optimization. –  Étienne Aug 30 '14 at 15:37

The reason is that most of the time, you want a constant, not a const-qualified variable. The two are not remotely the same in the C language. For example, variables are not valid as part of initializers for static-storage-duration objects, as non-vla array dimensions (for example the size of an array in a structure, or any array pre-C99).

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Any other case of non-vla array in C99 apart from " array in a structure" ? –  Atul Gangwar Mar 10 at 19:43
Arrays with static storage duration. Compound literal arrays. Array types used in typedef with file scope. Maybe others. –  R.. Mar 11 at 0:36

Expanding on R's answer a little bit: fieldWidth is not a constant expression; it's a const-qualified variable. Its value is not established until run-time, so it cannot be used where a compile-time constant expression is required (such as in an array declaration, or a case label in a switch statement, etc.).

Compare with the macro FIELD_WIDTH, which after preprocessing expands to the constant expression 10; this value is known at compile time, so it can be used for array dimensions, case labels, etc.

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So const operates more like java's final, allowing only one assignment? –  C. Ross Oct 26 '10 at 14:50
@C. Ross: for all practical purposes, yes, although I think there may be some non-trivial differences in semantics (I don't use const all that much in C code, and I'm still at the bottom of the Java learning curve). –  John Bode Oct 26 '10 at 15:11

Although a const int will not always be appropriate, an enum will usually work as a substitute for the #define if you are defining something to be an integral value. This is actually my preference in such a case.

enum { FIELD_WIDTH = 16384 };
char buf[FIELD_WIDTH];

In C++ this is a huge advantage as you can scope your enum in a class or namespace, whereas you cannot scope a #define.

In C you don't have namespaces and cannot scope an enum inside a struct, and am not even sure you get the type-safety, so I cannot actually see any major advantage, although maybe some C programmer there will point it out to me.

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In C++, is there any 'nice' way to define an enum that will behave as an "int", including working with arithmetic operators? I know it's possible to define operator overloads, and such things can be done in a macro so as not to be too totally evil, but I'm unaware of any simple language keyword for something like that. Does one exist that I'm unaware of? If not, it seems an odd omission from the language, since C++ is supposed to allow easy adaptation of C programs. –  supercat Oct 26 '10 at 15:36

According to K&R (2nd edition, page 211) the "const and volatile properties are new with the ANSI standard". This may imply that really old ANSI code did not have these keywords at all and it really is just a matter of tradition. Moreover, it says that a compiler should detect attempts to change const variables but other than that it may ignore these qualifiers. I think it means that some compilers may not optimize code containing const variable to be represented as intermediate value in machine code (like #define does) and this might cost in additional time for accessing far memory and affect performance.

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+1 for citing K&R but -1 for answering that it's about optimization rather than language requirements. Net 0. –  R.. Oct 26 '10 at 15:19
No it implies that const and volatile were introduced by ANSI standard C. K&R second edition was actually published before the standard was ratified. –  JeremyP Oct 26 '10 at 15:21
Lots of C programmers use strchr to search for a character instead of strtof because strtof was not added until C99. –  R.. Oct 26 '10 at 19:30

To add to R.'s and Bart's answer: there is only one way to define symbolic compile time constants in C: enumeration type constants. The standard imposes that these are of type int. I personally would write your example as

enum { fieldWidth = 10 };

But I guess that taste differs much among C programmers about that.

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Some C compilers will store all const variables in the binary, which if preparing a large list of coefficients can use up a tremendous amount of space in the embedded world.

Conversely: using const allows flashing over an existing program to alter specific parameters.

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Regarding your "conversely", this would be highly implementation-specific. A good implementation would inline all const variables and optimize them out if their addresses are never taken, just like how it inlines functions. –  R.. Oct 26 '10 at 15:20
I've seen several implementations that use/abuse that in embedded systems across a couple platforms (AVR, HCS08). They're defined as const but with some compiler directives that cause them to be stored at a defined memory address. They seem to work just like a * const –  Nick T Oct 26 '10 at 15:37
@R..: Things get really nasty in C at the embedded level. You can't assume much about C compilers. –  Matt Joiner Oct 28 '10 at 0:56
Indeed that's a huge abuse. The proper implementation is #define myregister (*(volatile const uint32_t *)0xdecafbad) or similar. –  R.. Oct 28 '10 at 2:29
where do you think the #define values are stored if not in the binary? –  David Heffernan Aug 7 '11 at 7:14

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